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US11407320B2 - Transmitting notification messages for an electric vehicle charging network - Google Patents

Transmitting notification messages for an electric vehicle charging network
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US11407320B2
US11407320B2US16/259,871US201916259871AUS11407320B2US 11407320 B2US11407320 B2US 11407320B2US 201916259871 AUS201916259871 AUS 201916259871AUS 11407320 B2US11407320 B2US 11407320B2
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charging
subscriber
electric vehicle
interest
events
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US20190152339A1 (en
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Richard Lowenthal
Praveen Mandal
Milton Tormey
David Baxter
Harjinder Bhade
James Solomon
Srinivas Swarnapuri
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Chargepoint Holdings Inc
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Chargepoint Inc
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Assigned to COULOMB TECHNOLOGIES, INC.reassignmentCOULOMB TECHNOLOGIES, INC.ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS).Assignors: BAXTER, DAVID, BHADE, HARJINDER, LOWENTHAL, RICHARD, MANDAL, PRAVEEN, SOLOMON, JAMES, SWARNAPURI, SRINIVAS, TORMEY, MILTON
Priority to US17/818,259prioritypatent/US20220371465A1/en
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Assigned to JPMORGAN CHASE BANK, N.A., AS ADMINISTRATIVE AGENTreassignmentJPMORGAN CHASE BANK, N.A., AS ADMINISTRATIVE AGENTSECURITY INTEREST (SEE DOCUMENT FOR DETAILS).Assignors: CHARGEPOINT, INC.
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Abstract

An electric vehicle charging station network server that manages a plurality of charging stations receives subscriber notification message preferences for a subscriber (e.g., electric vehicle operator) that indicate one or more events of interest for which the subscriber wishes to receive notification messages. A set of one or more contact points associated with the subscriber is also received. The server receives data associated with the subscriber that indicates that a charging session at one of the charging stations has been established for an electric vehicle associated with the subscriber. The server detects an event of interest for the subscriber and transmits a notification message for that event to at least one of the set of contact points associated with the subscriber.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS
This application is a continuation of application Ser. No. 12/372,726, filed Feb. 17, 2009, which is hereby incorporated by reference.
BACKGROUNDField
Embodiments of the invention relate to the field of charging electric vehicles, and more specifically to transmitting notification messages for an electric vehicle charging network.
Background
Charging stations are typically used to provide charging points for electric vehicles (e.g., electric battery powered vehicles, gasoline/electric battery powered vehicle hybrid, etc.). Since vehicles with electric batteries must periodically recharge their electric battery(ies) (or other electricity storage devices such as supercapacitors), charging stations provide convenient access for that charging. For example, charging stations may be located in designated charging locations (e.g., similar to locations of gas stations), parking spaces (e.g., public parking spaces and/or private parking space), etc.
A typical charging station includes a power receptacle to receive an electrical plug (coupled with the battery). The charging station may include a door, which may be lockable, to cover and protect the power receptacle and prevent unauthorized access to the power receptacle. For example, prospective customers typically request service from the charging station (e.g., by waving a radio-frequency identification (RFID) device near a RFID receiver on the charging station). If the customer is authorized, the door will unlock allowing the customer to plug in their charging cord into the receptacle. The door locks when shut (with the cord inside) which prevents an unauthorized removal of the charging cord. The door may be unlocked by the same customer (e.g., by waving the same RFID device near the RFID receiver on the charging station) in order to remove the charging cord.
Electric vehicles can be recharged from a local electricity grid. These vehicles can also be a source of electric power to be transferred to the local electricity grid. The transfer of electricity stored in electric vehicles to the local electric grid is referred to as vehicle-to-grid (V2G). V2G is particularly attractive for electric vehicles which have their own charging devices, such as battery electric vehicles with regenerative braking and plug-in hybrid vehicles. V2G may help meet demand for electricity when demand is at its highest.
BRIEF DESCRIPTION OF THE DRAWINGS
The invention may best be understood by referring to the following description and accompanying drawings that are used to illustrate embodiments of the invention. In the drawings:
FIG. 1 illustrates an exemplary charging system according to one embodiment of the invention;
FIG. 2 illustrates an exemplary network of charging stations according to one embodiment of the invention;
FIG. 3 illustrates an exemplary embodiment of the charging station illustrated inFIG. 1 according to one embodiment of the invention;
FIG. 4 illustrates exemplary portals of the charging station network server illustrated inFIG. 1 according to one embodiment of the invention;
FIG. 5 is a flow diagram illustrating exemplary operations for transmitting notification messages to subscribers according to one embodiment of the invention;
FIG. 6 is a flow diagram illustrating exemplary operations for transmitting notification messages to hosts according to one embodiment of the invention; and
FIG. 7 is a block diagram illustrating an exemplary architecture of a computing device that may be used in some embodiments of the invention.
DETAILED DESCRIPTION
In the following description, numerous specific details are set forth. However, it is understood that embodiments of the invention may be practiced without these specific details. In other instances, well-known circuits, structures and techniques have not been shown in detail in order not to obscure the understanding of this description. Those of ordinary skill in the art, with the included descriptions, will be able to implement appropriate functionality without undue experimentation.
References in the specification to “one embodiment”, “an embodiment”, “an example embodiment”, etc., indicate that the embodiment described may include a particular feature, structure, or characteristic, but every embodiment may not necessarily include the particular feature, structure, or characteristic. Moreover, such phrases are not necessarily referring to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with an embodiment, it is submitted that it is within the knowledge of one skilled in the art to effect such feature, structure, or characteristic in connection with other embodiments whether or not explicitly described.
In the following description and claims, the terms “coupled” and “connected,” along with their derivatives, may be used. It should be understood that these terms are not intended as synonyms for each other. Rather, in particular embodiments, “connected” may be used to indicate that two or more elements are in direct physical or electrical contact with each other. “Coupled” may mean that two or more elements are in direct physical or electrical contact. However, “coupled” may also mean that two or more elements are not in direct contact with each other, but yet still co-operate or interact with each other.
The techniques shown in the figures can be implemented using code and data stored and executed on one or more computing devices (e.g., charging stations, charging station network servers, etc.). As used herein, a charging station is a piece of equipment, including hardware and software, to charge electric vehicles. Such computing devices store and communicate (internally and with other computing devices over a network) code and data using machine-readable media, such as machine storage media (e.g., magnetic disks; optical disks; random access memory; read only memory; flash memory devices; phase-change memory) and machine communication media (e.g., electrical, optical, acoustical or other form of propagated signals—such as carrier waves, infrared signals, digital signals, etc.). In addition, such computing devices typically include a set of one or more processors coupled to one or more other components, such as a storage device, one or more input/output devices (e.g., a keyboard, a touchscreen, and/or a display), and a network connection. The coupling of the set of processors and other components is typically through one or more busses and bridges (also termed as bus controllers). The storage device and signals carrying the network traffic respectively represent one or more machine storage media and machine communication media. Thus, the storage device of a given device typically stores code and/or data for execution on the set of one or more processors of that device. Of course, one or more parts of an embodiment of the invention may be implemented using different combinations of software, firmware, and/or hardware.
The present invention will now be described in detail with reference to the drawings, which are provided as illustrative examples of the invention so as to enable those skilled in the art to practice the invention. Notably, the figures and examples below are not meant to limit the scope of the present invention to a single embodiment, but other embodiments are possible by way of interchange of some or all of the described or illustrated elements.
FIG. 1 illustrates an exemplary charging system according to one embodiment of the invention. The charging system illustrated inFIG. 1 includes the electric vehicle charging station120 (hereinafter referred to as the “charging station120”), which is coupled with thepower grid130 over thepower line135. Thepower grid130 may be owned and/or operated by local utility companies or owned and/or operated by private persons/companies. Thecharging station120 is also coupled with thedata control unit170 over the WPAN (Wireless Personal Area Network) line175 (e.g., Bluetooth, ZigBee, etc.) or other LAN (Local Area Network) links (e.g., Ethernet, PLC, WiFi, etc.). Thedata control unit170 is coupled with the electric vehicle charging station network server180 (hereinafter “server”180) over the WAN (Wide Access Network) connection185 (e.g., Cellular (e.g., CDMA, GPRS, etc.) WiFi Internet connection, Plain Old Telephone Service, leased line, etc.). Thedata control unit170 relays messages between thecharging station120 and theserver180. According to one embodiment of the invention, thedata control unit170 is part of another charging station as will be described in more detail with reference toFIG. 2.
Thecharging station120 controls the application of electricity from thepower grid130 to thepower receptacle115. Thepower receptacle115 may be any number of types of receptacles such as receptacles conforming to the NEMA (National Electrical Manufacturers Association) standards 5-1 5, 5-20, and 14-50 or other standards (e.g., BS 1363, CEE7, etc.) and may be operating at different voltages (e.g., 120V, 240V, 230V, etc.). According to one embodiment of the invention, a lockable door covers thepower receptacle115 and is locked in a closed position (without a cord being plugged in while thecharging station120 is not in use) and locked in a charging position (while a cord is plugged into the power receptacle during a charging session). While the door is locked in the charging position, the charging cord plugged into thepower receptacle115 cannot be removed. Only authorized vehicle operators (those authorized to use the charging station120) and authorized administrative personnel can unlock the door to access thepower receptacle115. Thus, access to thepower receptacle115 is limited to authorized vehicle operators and administrative personnel (e.g., utility workers, operators of the charging system network, etc.). Thus, the locking door protects thepower receptacle115 while the chargingstation120 is not in use and also prevents charging cords from being unplugged by unauthorized persons during charging.
Operators of vehicles may use the chargingstation120 to charge their electric vehicles. For example, the electricity storage devices (e.g., batteries, supercapacitors, etc.) of electric vehicles (e.g., electric powered vehicles, gasoline/electric powered vehicle hybrids, etc.) may be charged through use of the chargingstation120. In one embodiment of the invention, the operators of electric vehicles provide their own charging cord to charge their electric vehicle. For example, theelectric vehicle operator145 plugs theelectrical connector160 of thecharging cord140 into on-board charging circuitry of the electric vehicle110 (which is coupled with the electricity storage device of the vehicle110) and plugs theelectrical connector165 of thecharging cord140 into thepower receptacle115.
Theelectric vehicle operator145 may use thecommunication device150 to initiate and request a charging session for theelectric vehicle110. Thecommunication device150 may be a WLAN or WPAN device (e.g., one or two-way radio-frequency identification (RFID) device, mobile computing device (e.g., laptops, palmtop, smartphone, multimedia mobile phone, cellular phone, etc.)), ZigBee device, etc. Thecommunication device150 communicates unique operator-specific information (e.g., operator identification information, etc.) to the charging station120 (either directly or indirectly through the server180). In some embodiments of the invention,electric vehicle operator145 may use thecommunication device150 to monitor the charging status of theelectric vehicle110. In one embodiment of the invention, thecommunication device150 may be coupled with theelectric vehicle110.
Based on the information communicated by thecommunication device150, a determination is made whether theoperator145 is authorized to use the chargingstation120 and thus may access thepower receptacle115. In one embodiment of the invention, the chargingstation120 locally determines whether theoperator145 is authorized (e.g., by checking whether theoperator145 is represented on a list of authorized users stored in the charging station120). In another embodiment of the invention, the chargingstation120 may transmit an authorization request that includes the information read from thecommunication device150 to the server180 (through the data control unit170) for authorization. In another embodiment of the invention, theserver180 receives the charging session request from theoperator145 directly and determines whether theoperator145 is authorized. In any of these embodiments, if theoperator145 is authorized, the chargingstation120 energizes thepower receptacle115. Additionally, if there is a locked door covering thepower receptacle115, the chargingstation120 unlocks that door to allow theoperator145 to plug in thecharging cord140.
It should be understood that theoperator145 may request a charging session from the chargingstation120 differently in some embodiments of the invention. For example, theoperator145 may interact with a payment station coupled with the chargingstation120, which may then send appropriate instructions to the chargingstation120 regarding the charging of the vehicle110 (e.g., instructions to unlock the door covering thepower receptacle115, energize thepower receptacle115, etc.). The payment station may function similarly to a payment station for a parking space. In addition, the payment station coupled with the charging station may be used both for parking payment and charging payment.
According to one embodiment of the invention, a charging session is established after an operator has been authenticated and authorized to initiate a charging session (e.g., may use the chargingstation120 at the particular time of the day), after a charging cord has been plugged into thepower receptacle115, and after the door to thepower receptacle115 has been closed and locked. For example, a charging session is established with thevehicle110 after theoperator145 has been authorized, after thecharging cord140 has been plugged into thepower receptacle115, and after the door covering thepower receptacle115 has been closed and locked.
Theserver180 provides services for multiple charging stations. Theserver180 stores vehicle operator information (e.g., operator account information, operator contact information (e.g., operator name, street address, email address, telephone number, etc.)) and typically is responsible for accounting (e.g., amount of electricity purchased by individual vehicle operators, etc.). In one embodiment of the invention, theserver180 includes a subscriber portal (available through the Internet) which allows subscribers (owners and operators of electric vehicles) to register for service (which may include providing information regarding their electric vehicles, providing payment information, providing contact information, etc.) and perform other functions (e.g., pay for charging sessions, determine availability of charging stations, check the charging status of their electric vehicle(s), etc.). In addition, theserver180 may include a host portal (available through the Internet) which allows owners or administrators of the charging station to configure their charging stations and perform other functions (e.g., determine average usage of charging stations, etc.). Charging stations may also be configured using other means (e.g., through Telnet, user interface, etc.) in some embodiments of the invention.
WhileFIG. 1 illustrates asingle charging station120, it should be understood that many charging stations may be networked to the server180 (through one or more data control units) and/or to each other.FIG. 2 illustrates an exemplary network of charging stations according to one embodiment of the invention. The chargingstation network200 includes theserver180 and the chargingstations120,210,215,220,225,230, and235. Theserver180 is providing services for each of the chargingstations120,210,215,220,225,230, and235. The chargingstations120,210,215, and220 are part of theradio group270. The chargingstations230 and235 are part of theradio group280. The chargingstation225 is the only charging station in theradio group275. As used herein, a radio group is a collection of one or more charging stations that collectively has a single connection to a server. Each radio group includes one or more data control units (DCUs) which connect the charging stations with the server. Typically, DCUs are implemented along with a charging station. However, a data control unit may be implemented separately from any charging station.
Each DCU acts as a gateway to theserver180 for those charging stations that are coupled with that DCU. It should be understood that charging stations need not have a direct link to a DCU (e.g., a charging station may be directly linked to another charging station which itself has a direct link to a DCU). For example, DCU170 (of theradio group270 and implemented in the charging station220) is coupled with theserver180 through theWAN link292 and is coupled with each of the chargingstations120,210, and215. The chargingstations120 and215 are directly coupled with theDCU170 via the WPAN links282 and286 respectively. The chargingstation210 is indirectly coupled with theDCU170 via the WPAN link284 to the chargingstation215 which is itself directly coupled with theDCU170 via theWPAN link286. Thus, the chargingstations120,210, and215 transmit messages to, and receive messages from, theserver180 via theDCU170. The DCU225 (of theradio group275 and part of the charging station225) is coupled with theserver180 through theWAN link296. The DCU260 (of the radio group280) is coupled with theserver180 through theWAN link294 and is coupled with the chargingstation230 via theWPAN link288.
Radio groups represent the network topology of a collection of charging stations. Typically, these charging stations are located relatively close (e.g., on the same street, in the same parking garage, in the same block, etc.). In addition to radio groups, administrator defined collection of charging stations may also be defined. For example, the chargingstations215 and235 are part of thelogical group285. Logical groups are a collection of one or more charging stations that an administrator defines. Typically, the charging stations included in a logical group share some set of common features. As illustrated inFIG. 2, logical groups may include charging stations from different radio groups.
It should be understood that the network architecture illustrated inFIG. 2 is exemplary, and other architectures may be used in embodiments of the invention (e.g., each charging station may have a direct connection with the server180).
FIG. 3 illustrates an exemplary embodiment of the chargingstation120 according to one embodiment of the invention. The chargingstation120 includes the chargingstation controller305, theelectricity control device310, theelectricity measuring device320, theRFID reader330, the user interface335, thedisplay unit340, and one or more transceivers350 (e.g., wired transceiver(s) (e.g., Ethernet, power line communication (PLC), etc.) and/or wireless transceiver(s) (e.g., 802.15.4 (e.g., ZigBee, etc.), Bluetooth, WiFi, Infrared, GPRS/GSM, CDMA, etc.)). It should be understood thatFIG. 3 illustrates an exemplary architecture of a charging station, and other, different architectures may be used in embodiments of the invention described herein. For example, some implementations of charging stations may not include a user interface, an RFID reader, or a connection to a network.
TheRFID reader330 reads RFID tags from RFID enabled devices (e.g., smartcards, key fobs, etc., embedded with RFID tag(s)) of operators that want to use the chargingstation120. For example, theoperator145 may wave/swipe the communication device150 (if an RFID enabled device) near theRFID reader330 to initiate a charging session from the chargingstation120.
TheRFID reader330 passes the information read to the chargingstation controller305. The chargingstation controller305 is programmed to include instructions that establish charging sessions with the vehicles. According to one embodiment of the invention, a charging session is established after an operator has been authenticated and authorized to initiate a charging session (e.g., may use the chargingstation120 at the particular time of the day), after a charging cord has been plugged into thepower receptacle115, and after the door covering thepower receptacle115 has been closed and locked. Theoperator145 is authenticated and authorized based on the information theRFID reader330 receives. While in one embodiment of the invention the chargingstation120 locally stores authentication information (e.g., in the configuration/operator data store370), in other embodiments of the invention the chargingstation controller305 transmits an authorization request with a remote device (e.g., the server180) via one of the transceivers350. For example, the charging station controller causes an authorization request to be transmitted to thedata control unit170 over a WPAN transceiver (e.g., Bluetooth, ZigBee) or a LAN transceiver. The data controlunit170 relays the authorization request to theserver180.
In some embodiments of the invention, in addition to or in lieu of vehicle operators initiating charging sessions with RFID enabled devices, vehicle operators may use the user interface335 to initiate charging sessions. For example, vehicle operators may enter in account and/or payment information through the user interface335. For example, the user interface335 may allow theoperator145 to enter in their username/password (or other information) and/or payment information. In other embodiments of the invention, vehicle operators may request charging sessions through devices remote to the charging station120 (e.g., payment stations coupled with the charging stations).
After authorizing theoperator145, the chargingstation controller305 causes thepower receptacle115 to be energized and the door covering the power receptacle115 (if a locked door is covering the power receptacle115) to unlock. For example, the chargingstation controller305 causes theelectricity control device310 to complete the connection of thepower line135 to thepower grid130. Theelectricity control device310 is a solid-state device that is controlled by the chargingstation controller305 or any other device suitable for controlling the flow of electricity. In addition, the chargingstation controller305 causes the door covering thepower receptacle115 to unlock allowing theoperator145 to plug in their charging cord to thepower receptacle115.
In one embodiment of the invention, the chargingstation120 includes one or more sensors that may be used to detect when a charging cord has been plugged into thepower receptacle115. The sensors may be a pair of infrared emitting diodes (IRED) and a phototransistor or a photodiode. An RED emits light and a phototransistor or photodiode detects the light and converts the light into current. When thepower receptacle115 receives a plug, that plug breaks the light causing the phototransistor to stop converting light into current. In this way, the chargingstation120 may determine if a plug has been inserted into thepower receptacle115. It should be understood that other sensor technologies may be used to detect whether a plug has been received at the power receptacle115 (e.g., a microswitch pushbutton, mechanical power receptacle cover that must be rotated, etc.). In addition, in some embodiments of the invention, the chargingstation120 also includes sensors to detect whether the door covering thepower receptacle115 is closed and locked.
Theelectricity measuring device320 measures the amount of electricity that is flowing on thepower line135 through thepower receptacle115. While in one embodiment of the invention theelectricity measuring device320 measures flow of current, in an alternative embodiment of the invention theelectricity measuring device320 measures power draw. Theelectricity measuring device320 may be an induction coil or other devices suitable for measuring electricity. The chargingstation controller305 is programmed with instructions to monitor theelectricity measuring device320 and to calculate the amount of electricity being used over a given time period.
Thedisplay unit340 is used to display messages to the operator145 (e.g., charging status, confirmation messages, error messages, notification messages, etc.). Thedisplay unit340 may also display parking information if the chargingstation120 is also acting as a parking meter (e.g., amount of time remaining in minutes, parking violation, etc.).
The configuration/operator data store370 stores configuration information which may be set by administrators, owners, or manufacturers of the chargingstation120.
FIG. 4 illustrates exemplary portals of theserver180 according to one embodiment of the invention. Thesubscriber portal410 includes thesubscriber registration module415, the chargingstation locator module420, thecharge status module425, and thesubscriber accounting module430. Thesubscriber registration module415 allows potential customers (e.g., electric vehicle operators) to sign up for charging services. For example, thesubscriber registration module415 collects contact point information from subscribers (e.g., name, address, email address, telephone number, etc.), type of electric vehicle(s) and/or type of electricity storage device, and service plan information. The subscribers may select between different types and levels of services in different embodiments of the invention. For example, the subscribers may choose between different subscription plans (e.g., pay per charging session, nighttime charging, grid-friendly charging (subscribers can only charge during off-peak times (e.g., early morning, late night, or other times when the grid is experiencing low demand), anytime charging (access to the charging stations twenty-four hours a day), etc.).
In some embodiments of the invention, thesubscriber registration module415 also allows subscribers to provide notification message preferences for receiving notification messages upon certain events occurring. For example, each subscriber may provide a notification message preference to receive notification messages for each event that interests them (those events the subscriber wishes to receive notification messages on). The events of interest may include one or more suspension or termination of a charging session events, one or more charge status events, one or more update events, one or more parking events, and/or one or more alarm events. For example, each subscriber may provide a notification message preference for an event in interest (whether they want to receive a notification message for that event) for the following events: fully charged vehicle, charging has been interrupted (e.g., the charging cord has been removed from the vehicle or has been severed, the station has encountered a power loss, etc.), the utility operating the power grid has caused their charging of the vehicle to be suspended (e.g., the load on the grid exceeded a Demand Response threshold), the subscriber forgot to plug in their charging cord into their vehicle, and other events which will be described in greater detail later herein. The subscribers may choose to receive one or any combination of the above events that interest them. In addition, the subscribers may be able to choose the format of the notification messages (e.g., receive through email, through text message, etc.). In addition, the subscribers may provide one or more contact points specific for notification messages (e.g., email address(es), text message address(es) (e.g., phone number(s)), etc.). It should also be understood that one or more events may have default notification message preference values.
The chargingstation locator module420 allows subscribers to locate charging stations (available and/or unavailable charging stations). The chargingstation locator module420 may provide an interactive map for the subscribers to locate charging stations. The chargingstation locator module420 may also provide an estimated time when the charging station will become available for use. Subscribers may also use the chargingstation locator module420 to create a list of favorite charging station(s) for theserver180 to monitor their availability and notify the user (e.g., through email or text message) when those charging station(s) are available and/or unavailable. In addition, in some embodiments of the invention, the subscribers may use the chargingstation locator module420 to reserve charging stations for future use.
Thecharge status module425 allows subscribers to determine the charging status of their electric vehicles (that are currently being charged). According to one embodiment of the invention, thecharge status module425 presents charge status information to the subscriber (e.g., amount of power currently being transferred, total amount of power transferred, amount of energy transferred, total amount of energy transferred, the amount of time the charging session has lasted, an estimate of the time left to charge their vehicle, etc.).
Thesubscriber accounting module430 allows subscribers to review accounting information (e.g., the number of sessions remaining in their subscription, payment and/or invoice information, the amount of energy transferred to the power grid, etc.), and/or generate report(s) (e.g., illustrating power consumed from the power grid, illustrating power transferred to the power grid, illustrating an estimate of the amount of gasoline saved through use of their electric vehicle(s), illustrating an estimate of the amount of greenhouse gases they have saved from outputting through use of their electric vehicle(s), illustrating the amount of money saved in gasoline costs through use of their electric vehicle(s), etc.). In addition, thesubscriber accounting module430 may allow subscribers to review a history of the charging station(s) that they most often use.
Thehost portal435 allows owners and/or administrators of one or more charging stations to configure their charging station(s) and perform other functions. As used herein, a host is an owner and/or administrator of one or more charging stations. It should also be understood that a host may include operator(s) and/or administrator(s) of the charging station network (e.g., the charging station network200). Thehost portal435 includes thehost registration module440, the charging station configurator module445, thehost accounting module450, and the chargingstation status module455.
Thehost registration module440 allows hosts to register their charging station(s) for service and allows hosts to set preferences. For example, thehost registration module440 allows hosts to provide contact information (e.g., name, company, address, email address(es), telephone number(s), etc.). As another example, thehost preferences module440 allows hosts to provide notification message preferences for receiving notification messages upon certain events occurring. For example, each host may provide a notification message preference to receive notification messages for each event that interests them (those events the host wishes to receive notification messages on). The events of interest may include one or more suspension or termination of a charging session events, one or more update events, and/or one or more alarm events. For example, each host may provide a notification message preference for any of the following events that interest them: a charging station has failed to respond to a periodic heartbeat from theserver180, a charging station has unexpectedly rebooted, a charging station has detected a problem, a ground fault circuit interrupter (GFCI) has tripped in a charging station, etc. and/or other events which will be described in greater detail later herein. Each host may choose to receive one or any combination of the above events that interest them, and may specify different notification message preferences for different charging stations. In addition, each host may be able to choose the format of the notification messages (e.g., receive them through email, through text message, etc.). In addition, the hosts may provide one or more contact points specific for notification messages (e.g., email address(es), text message address(es) (e.g., phone number(s)), etc.). It should also be understood that one or more events may have default notification message preference values.
The charging station configurator module445 allows hosts to configure their charging stations (e.g., set charging station parameters on their charging station, set access parameters, etc.). Thehost accounting module450 allows hosts to review accounting information (e.g., power consumed by each of their charging station(s), total power consumed by all of their charging station(s), power transferred to the power grid by each of their charging station(s), total power transferred to the power grid by all of their charging station(s), account balances, payments and invoices, etc.).
The chargingstation status module455 allows hosts to view the charging status of each of their charging station(s) (e.g., current status (charging, available, out-of-service), reports on occupancy rates of their charging station(s), reports on energy usage for each of their charging station(s), etc.).
Theutility portal460 allows utilities (employees of the utilities) to monitor and manage the impact on their grid of electric vehicle charging. Theload monitoring module465 allows utilities to monitor the load for individual charging stations and/or aggregate load of all charging stations drawing power from their grid. Theload monitoring module465 may also provide the amount of load which may be shed-able (e.g., the amount of load being drawn by subscribers which have registered for grid-friendly charging, etc.). The utilities may use the information from theload monitoring module465 to determine whether to shed load (e.g., for only those subscribers which have registered for grid-friendly charging or for all charging sessions). Upon determining to shed load of some charging stations, theserver180 may send a command to shut down service to those charging stations. In addition, theload monitoring module465 may provide a history of use for the charging stations including the average load drawn at a time for each charging station and/or all charging stations.
While thesubscriber portal410, thehost portal435, and theutility portal460 have been described with specific modules, it should be understood that they may have additional modules, less modules, and/or the functionality of some modules may be combined.
Theserver180 is also programmed to transmit notification messages to subscribers and hosts based on data received from the charging stations (e.g., charging data, alarm data, etc.), data received from the utilities (e.g., Demand Response data, etc.), data gathered by the server180 (e.g., network condition data, etc.), and in some embodiments of the invention, data received from the electric vehicles. Typically these notification messages take the form of electronic messages (e.g., email messages, text messages, or other forms of electronic communication).
Theserver180 may be programmed to transmit notification messages to subscribers, hosts, or other persons, in different situations in different embodiments of the invention. For example, in some embodiments of the invention theserver180 is programmed to transmit notification messages to subscribers (or to other person(s) as designated by the subscribers) and/or hosts upon events that cause charging sessions to be terminated or suspended in the following situations: responsive to their charging session being administratively terminated by the owner(s) and/or administrator(s) of the charging station, responsive to the charging station detecting an over-current situation and suspending the charging session, responsive to the charging station stopping the flow of electricity to their vehicle (e.g., by de-energizing the power receptacle), responsive to their charging session expiring and being suspended, responsive to receiving a Demand Response message from a Utility to suspend charging to decrease load on the power grid, etc.
As another example, in some embodiments of the invention theserver180 is programmed to transmit notification messages to subscribers (or to other person(s) as designated by the subscribers), and/or hosts upon the following charge status events: fully charged vehicle, X percent charge, vehicle is not currently charging (e.g., operator established a charging session but has failed to plug their charging cord into their vehicle or the connection is otherwise faulty), vehicle has resumed charging (e.g., after being suspended to decrease the load on the power grid), a vehicle is currently transferring electricity to the grid, a vehicle is currently drawing electricity from the grid, etc.
The determination that the electricity storage device(s) of an electric vehicle is fully charged may be performed in different ways in different embodiments of the invention. Typically the storage capability of a particular electricity storage device for a given electric vehicle is known based on the type of electric vehicle information collected by thesubscriber registration module415. From that information, the maximum amount of time needed to charge that electricity storage device may be determined. In one embodiment of the invention, the electricity storage device of a given electric vehicle is fully charged when at least the total amount of electricity transferred to the electricity storage device meets or exceeds the storage capability amount of that electricity storage device. In another embodiment of the invention, the electricity storage device of a given electric vehicle is fully charged at least when the maximum amount of time needed to charge that electricity storage device has been meet or exceeded. In another embodiment of the invention, if the “trickle charge” amount of electricity is known for an electricity storage device, that electricity storage device is fully charged when that trickle charge amount is detected. For the embodiments described above, the determination is typically based on data received from the charging stations.
In another embodiment of the invention, the determination of a fully charged vehicle is made based on information collected from the electric vehicles. For example, some electric vehicles have the capability of transmitting status information (e.g., via PLC, WPAN, etc.) of their electricity storage devices (e.g., percent full, amount of energy needed until a full charge, full charge, etc.). This data may be transmitted directly or indirectly to theserver180 and/or the chargingstation120. Theserver180 and/or the chargingstation120 may use the data to transmit charge status notification messages. For example, theserver180 and/or the chargingstation120 may use this information in combination with the amount of electricity being transferred to the electricity storage device to determine a fully charged electricity storage device. Alternatively or additionally, theserver180 and/or chargingstation120 may transmit fully charged vehicle notification messages responsive to receiving a fully charged message from the electric vehicle.
In one embodiment of the invention, theserver180 is programmed to determine that a subscriber has established a charging session with a charging station but has failed to plug their charging cord into their vehicle by examining the charging data received from that charging station. For example, if the charging data indicates that the charging session has been established for a threshold amount of seconds and the electricity transferred is below a certain threshold, theserver180 may notify the subscriber that charging has not occurred. In addition, theserver180 may transmit a command to the charging station instructing it to suspend the session and prevent electricity from flowing through the power receptacle.
In one embodiment of the invention, theserver180 is programmed to transmit notification messages to those subscribers (or to other person(s) as designated by the subscribers) which have established a charging session but have failed to plug their charging cord into their vehicle (or otherwise have a bad connection to their vehicle). For example, a vehicle operator has been authorized to use a charging station, a charging cord has been inserted into a power receptacle of the charging station, the door covering the power receptacle (if one exists) is closed and locked, but the vehicle operator has forgotten to plug the charging cord into their vehicle.
In one embodiment of the invention, theserver180 determines that a subscriber has established a charging session with a charging station but has failed to plug their charging cord into their vehicle by examining the charging data received from that charging station. For example, if the charging data indicates that the charging session has been established for a threshold amount of seconds and the electricity transferred is below a certain threshold, theserver180 may notify the subscriber that charging has not occurred. In addition, theserver180 may transmit a command to the charging station instructing it to suspend the session and prevent electricity from flowing through the power receptacle.
As another example, in some embodiments of the invention theserver180 is programmed to transmit notification messages responsive to an alarm generated by a charging station or triggered by theserver180. These notification messages may be sent to the appropriate operators, administrators, and/or owners of the charging stations experiencing an alarm event and/or to the subscribers using a charging station that is experiencing an alarm event. Example alarm events include the following: a charging station has failed to respond to a periodic heartbeat from theserver180, a charging station has unexpectedly rebooted, a charging station has detected a problem (hardware and/or software), a GFCI in the charging station has tripped, a software and/or firmware update/upgrade on a charging station has completed and/or failed, the software and/or firmware on a charging station has reverted to an old version, etc.
As another example, in some embodiments of the invention theserver180 is programmed to transmit update notification messages to the subscribers responsive to certain update events. Example update events include the following: a favorite charging station or often used charging station is available and/or unavailable, a new charging station has been installed in a close location, a subscriber has run out of (or is close to running out of) charging sessions, a subscriber has failed or completed a credit card authorization check (e.g., credit card has expired), the door covering the power receptacle where their charging cord is attached has been opened by an unauthorized user, etc.
As yet another example, in some embodiments of the invention theserver180 is programmed to transmit notification messages to subscribers responsive to parking events including the following: exceeded parking time (or close to exceeding the parking time), parking reservation confirmation, unused parking reservation (e.g., a subscriber has reserved a parking spot but did not use the spot and/or did not charge at a corresponding charging station), parking reservation time extension confirmation, etc.
While embodiments have been described with reference to the server transmitting notification messages, in alternative embodiments of the invention the charging stations may include logic to determine whether to transmit notification messages to subscribers and/or hosts. For example, the chargingstation controller305 may be programmed to determine whether to transmit notification messages to subscribers using the charging station or to the host associated with the charging station. Thus, in some embodiments of the invention, the chargingstation120 may include the notification message preferences of theoperator145 and the administrator(s) and/or owner(s) of the chargingstation120. In addition, in some embodiments, the charging stations may transmit the notification messages to subscribers and/or hosts.
FIG. 5 is a flow diagram illustrating exemplary operations for transmitting notification messages to subscribers according to one embodiment of the invention. The operations ofFIG. 5 will be described with reference to the exemplary embodiments ofFIGS. 1 and 4. However, it should be understood that the operations ofFIG. 5 can be performed by embodiments of the invention other than those discussed with reference toFIGS. 1 and 4, and the embodiments discussed with reference toFIGS. 1 and 4 can perform operations different than those discussed with reference toFIG. 5.
According to one embodiment of the invention the operations ofFIG. 5 are performed by servers (e.g., the server180). Atblock510, theserver180 receives notification message preferences for a subscriber (e.g., the operator145) which indicate one or more events of interest which the subscriber wishes to receive notification messages on. While in one embodiment of the invention theserver180 receives these notification message preferences from the subscriber using thesubscriber registration module415, in other embodiments of the invention theserver180 receives these notification message preferences differently (e.g., via email, via text message, from a charging station, etc.). Flow moves fromblock510 to block520.
Atblock520, theserver180 receives a set of one or more contact points (e.g., email address(es), text message address(es), etc.) associated with the subscriber. While in one embodiment of the invention theserver180 receives the set of contact points from the subscriber using thesubscriber registration module415, in other embodiments of the invention theserver180 receives the set of contact points differently (e.g., via email, via text message, from a charging station, etc.). Flow moves fromblock520 to block530.
Atblock530, theserver180 authorizes the subscriber to use a charging station. For example, theserver180 authorizes theoperator145 to use the chargingstation120. In some embodiments, the authorization is performed in response to theserver180 receiving an authorization request from the chargingstation120, while in other embodiments, the authorization is performed in response to theserver180 receiving an authorization request from the subscriber (e.g., the operator145) directly. Flow moves fromblock530 to block540.
Atblock540, theserver180 receives data associated with the subscriber that indicates a charging session has been established for an electric vehicle (e.g., electric vehicle110) associated with the subscriber. The data received may be transmitted by the chargingstation120. The data includes information identifying the subscriber (e.g., an RFID tag uniquely associated with the subscriber) and information indicating that a charging session has been established. Flow moves fromblock540 to block550.
Atblock550, theserver180 detects an event of interest for the subscriber. Theserver180 may detect an event of interest for the subscriber (e.g., operator145) based on data received from the charging stations (e.g., data related to the charging of thevehicle110, data related to alarms detected and/or generated at the charging station, etc.), data received from the utility operating the power grid130 (e.g., Demand Response data, etc.), data gathered by the server180 (e.g., network condition data, etc.), data provided by the administrator(s) and/or owner(s) of the chargingstation120, (e.g., network operation data), and in some embodiments of the invention, data received from the electric vehicle110 (e.g., data related to the charging of the electric vehicle110). Flow moves fromblock550 to block560.
Responsive to detecting an event of interest for the subscriber, atblock560 theserver180 transmits a notification message for that event to at least one of the contact points associated with the subscriber. The notification message sent is an email, text message, or other electronic communication to one or more addresses as specified by the subscriber (which may be provided using the subscriber registration module415). As described above, the subscriber may specify the format of the notification message (e.g., email, text message, etc.) and the recipient of the message using thesubscriber registration module415.
FIG. 6 is a flow diagram illustrating exemplary operations for transmitting notification messages to hosts according to one embodiment of the invention. The operations ofFIG. 6 will be described with reference to the exemplary embodiments ofFIGS. 1 and 4. However, it should be understood that the operations ofFIG. 6 can be performed by embodiments of the invention other than those discussed with reference toFIGS. 1 and 4, and the embodiments discussed with reference toFIGS. 1 and 4 can perform operations different than those discussed with reference toFIG. 6. In addition, the operations described with reference toFIG. 6 may be performed in combination to, or separate from, the operations described with reference toFIG. 5.
Atblock610, theserver180 receives notification message preferences for a host (e.g., an owner or administrator of the chargingstation120 and/or operator(s) and/or administrator(s) of the charging station network200) which indicates one or more events of interest which the host wishes to receive notification messages for. While in one embodiment of the invention theserver180 receives these notification message preferences from the host using thehost registration module440, in other embodiments of the invention theserver180 receives these preferences differently (e.g., via email, via text message, etc.). Flow moves fromblock610 to block620.
Atblock620, theserver180 receives a set of one or more contact points (e.g., email address(es), text message address(es), etc.) associated with the host. While in one embodiment of the invention theserver180 receives the set of contact points from the host using thehost registration module440, in other embodiments of the invention theserver180 receives the set of contact points differently (e.g., via email, via text message, etc.). Flow moves fromblock620 to block630.
Atblock630, theserver180 detects an event of interest for the host. Theserver180 may detect an event of interest for the host based on data received from those charging station(s) the host owns or operates (e.g., data related to vehicle charging at their charging station(s), data related to alarms detected and/or generated at their charging station(s), etc.), data received from the utility(ies) operating the power grid(s) for their charging station(s) (e.g., Demand Response data, etc.), data gathered by theserver180 for their charging station(s) (e.g., network condition data, hardware/software upgrade status of the charging stations, etc.), and in some embodiments of the invention, data received from the electric vehicles (e.g., data related to the charging of the electric vehicles at their charging station(s)). Flow moves fromblock630 to640.
Responsive to detecting an event of interest for the host, atblock640 theserver180 transmits a notification message for that event to at least one of the contact points associated with the host. The notification message sent is an email, text message, or other electronic communication to one or more addresses as specified by the host (which may be provided using the host registration module440). As described above, the host may specify the format of the notification message (e.g., email, text message, etc.) and the recipient of the message using thehost registration module440.
FIG. 7 is a block diagram illustrating an exemplary architecture of a computing device which may be used in embodiments of the invention. For example, the architecture of thecomputing device700 may be an architecture of theserver180 and or the chargingstation120 in some embodiments of the invention. It should be understood that whileFIG. 7 illustrates various components of a computing device, it is not intended to represent any particular architecture or manner of interconnecting the components as such details are not germane to the present invention. It will be appreciated that other computing devices that have fewer components or more components may also be used with the present invention.
As illustrated inFIG. 7, thecomputing device700 includes the bus(es)750 which is coupled with theprocessing system720,power supply725,memory730, and the nonvolatile memory740 (e.g., a hard drive, flash memory, Phase-Change Memory (PCM), etc.). The bus(es)750 may be connected to each other through various bridges, controllers, and/or adapters as is well known in the art. Theprocessing system720 may retrieve instruction(s) from thememory730 and/or thenonvolatile memory740, and execute the instructions to perform operations as described above. The bus750 interconnects the above components together and also interconnects those components to the display controller &display device770, Input/Output device(s)780 (e.g., NIC (Network Interface Card), a cursor control (e.g., mouse, touchscreen, touchpad, etc.), a keyboard, etc.), and the transceiver(s)1290 (wired transceiver(s) (e.g., Ethernet, power line communication (PLC), etc.) and/or wireless transceiver(s) (e.g., 802.15.4 (e.g., ZigBee, etc.), Bluetooth, WiFi, Infrared, GPRS/GSM, CDMA, RFID, etc.)).
While embodiments of the invention have been described in reference to the power receptacles receiving charging cords, in alternative embodiments of the invention the charging cord may be attached differently to the charging station (e.g., the charging cord is permanently attached to the power receptacle and each of the electric vehicle operators use the same charging cord, the charging cord is permanently attached to the electricity source of the charging station, etc.).
While the flow diagrams in the figures show a particular order of operations performed by certain embodiments of the invention, it should be understood that such order is exemplary (e.g., alternative embodiments may perform the operations in a different order, combine certain operations, overlap certain operations, etc.)
While the invention has been described in terms of several embodiments, those skilled in the art will recognize that the invention is not limited to the embodiments described, can be practiced with modification and alteration within the spirit and scope of the appended claims. The description is thus to be regarded as illustrative instead of limiting.

Claims (27)

What is claimed is:
1. A method performed on a charging station network server that manages a plurality of charging stations, the method comprising:
receiving subscriber notification message preferences for a subscriber of electric vehicle charging service that indicate a set of one or more events of interest for which the subscriber wishes to receive notification messages, wherein the set of events of interest includes a fully charged electric vehicle and that a charging session has been interrupted;
receiving data associated with the subscriber that indicates a first charging session at one of the plurality of charging stations has been authorized and established for an electric vehicle associated with the subscriber;
detecting, from data received from the one of the plurality of charging stations associated with the first charging session, one of the set of one or more events of interest for which the subscriber wishes to receive notification messages including that the electric vehicle associated with the subscriber is fully charged;
responsive to the detecting that the electric vehicle associated with the subscriber is fully charged, transmitting a first notification message to the subscriber that the electric vehicle associated with the subscriber is fully charged;
receiving data associated with the subscriber that indicates a second charging session at one of the plurality of charging stations has been authorized and established for the electric vehicle associated with the subscriber;
detecting, from data received from the one of the plurality of charging stations associated with the second charging session, that the second charging session of the electric vehicle has been interrupted unexpectedly; and
responsive to the detecting that the second charging session of the electric vehicle has been interrupted unexpectedly, transmitting a second notification message to the subscriber that the second charging session of the electric vehicle has been interrupted.
2. The method ofclaim 1, wherein the first and second notification messages are transmitted to at least one of a set of one or more contact points associated with the subscriber through an email message, a text message, or other electronic communication.
3. The method ofclaim 1, wherein at least another one of the set of events of interest includes a suspension or termination of the charging session.
4. The method ofclaim 1, wherein at least another one of the set of events of interest includes a charge status event that includes one or more of: electric vehicle is not currently charging, electric vehicle has resumed charging, electric vehicle is currently transferring electricity to a grid, and electric vehicle is currently drawing electricity from the grid.
5. The method ofclaim 1, further comprising:
wherein at least another one of the set of events of interest is related to an update event;
detecting the update event; and
responsive to the detecting the update event, transmitting a third notification message for the update event to the subscriber.
6. The method ofclaim 1, further comprising:
wherein at least another one of the set of events of interest is related to a parking event;
detecting the parking event; and
responsive to the detecting the parking event, transmitting a third notification message for the parking event to the subscriber.
7. The method ofclaim 1, further comprising:
receiving host notification message preferences for a host of the charging station network server that indicate one or more events of interest for which the host wishes to receive notification messages, wherein the host is an owner or administrator of the plurality of charging stations;
detecting one of the one or more events of interest for which the host wishes to receive notification messages; and
responsive to the detecting the one of the one or more events of interest for which the host wishes to receive notification messages, transmitting a third notification message for that event of interest to the host of the charging station network server.
8. The method ofclaim 7, wherein the third notification message is transmitted to at least one of a set of one or more contact points associated with the host through an email message, a text message, or other electronic communication.
9. The method ofclaim 8, wherein the detected event of interest for the host corresponds with an alarm event that is one of: one of the plurality of charging stations has failed to respond to a periodic heartbeat from the charging station network server, one of the plurality of charging stations has unexpectedly rebooted, one of the plurality of charging stations has detected a hardware or software problem, a ground fault circuit interrupter on one of the plurality of charging stations has tripped, a firmware update on one of the plurality of charging stations has completed, a firmware update on one of the plurality of charging stations has failed, and one of the plurality of charging stations has reverted to a previous firmware version.
10. A charging station network server that manages a plurality of charging stations, comprising:
a processor to execute instructions, and
a memory coupled with the processor, the memory storing one or more instructions that, when executed, cause the processor to perform operations including,
receive subscriber notification message preferences for a subscriber of electric vehicle charging service that indicate a set of one or more events of interest for which the subscriber wishes to receive notification messages, wherein the set of events of interest includes a fully charged electric vehicle and that a charging session has been interrupted;
receive data associated with the subscriber that indicates a first charging session at one of the plurality of charging stations has been authorized and established for an electric vehicle associated with the subscriber;
detect, from data received from the one of the plurality of charging stations associated with the first charging session, one of the set of one or more events of interest for which the subscriber wishes to receive notification messages including that the electric vehicle associated with the subscriber is fully charged;
responsive to the detection that the electric vehicle associated with the subscriber is fully charged, transmit a first notification message to the subscriber that the electric vehicle associated with the subscriber is fully charged;
receive data associated with the subscriber that indicates a second charging session at one of the plurality of charging stations has been authorized and established for the electric vehicle associated with the subscriber;
detect, from data received from the one of the plurality of charging stations associated with the second charging session, that the second charging session of the electric vehicle has been interrupted unexpectedly; and
responsive to the detecting that the second charging session of the electric vehicle has been interrupted unexpectedly, transmit a second notification message to the subscriber that the second charging session of the electric vehicle has been interrupted.
11. The charging station network server ofclaim 10, wherein the first and second notification messages are to be transmitted to at least one of a set of one or more contact points associated with the subscriber through an email message, a text message, or other electronic communication.
12. The charging station network server ofclaim 10, wherein at least another one of the set of events of interest includes a suspension or termination of the charging session.
13. The charging station network server ofclaim 10, wherein at least another one of the set of events of interest includes a charge status event that includes one or more of: electric vehicle is not currently charging, electric vehicle has resumed charging, electric vehicle is currently transferring electricity to a grid, and electric vehicle is currently drawing electricity from the grid.
14. The charging station network server ofclaim 10, wherein the memory further stores one or more instructions that, when executed, cause the processor to perform operations including:
wherein at least another one of the set of events of interest is related to an update event;
detect the update event; and
responsive to the detection of the update event, transmit a third notification message for the update event to the subscriber.
15. The charging station network server ofclaim 10, wherein the memory further stores one or more instructions that, when executed, cause the processor to perform operations including:
wherein at least another one of the set of events of interest is related to a parking event;
detect the parking event; and
responsive to the detection of the parking event, transmit a third notification message for the parking event to the subscriber.
16. The charging station network server ofclaim 10, wherein the memory further stores one or more instructions that, when executed, cause the processor to perform operations including:
receive host notification message preferences for a host of the charging station network server that indicate one or more events of interest for which the host wishes to receive notification messages, wherein the host is an owner or administrator of the plurality of charging stations;
detect one of the one or more events of interest for which the host wishes to receive notification messages; and
responsive to the detection of the one of the one or more events of interest for which the host wishes to receive notification messages, transmit a third notification message for that event of interest to the host of the charging station network server.
17. The charging station network server ofclaim 16, wherein the third notification message is to be transmitted to at least one of a set of one or more contact points associated with the host through an email message, a text message, or other electronic communication.
18. The charging station network server ofclaim 17, wherein the detected event of interest for the host corresponds with an alarm event that is one of: one of the plurality of charging stations has failed to respond to a periodic heartbeat from the charging station network server, one of the plurality of charging stations has unexpectedly rebooted, one of the plurality of charging stations has detected a hardware or software problem, a ground fault circuit interrupter on one of the plurality of charging stations has tripped, a firmware update on one of the plurality of charging stations has completed, a firmware update on one of the plurality of charging stations has failed, and one of the plurality of charging stations has reverted to a previous firmware version.
19. A non-transitory machine-readable storage medium that provides instructions that, when executed by a processor on a charging station network server that manages a plurality of charging stations, cause said processor to perform operations comprising:
receiving subscriber notification message preferences for a subscriber of electric vehicle charging service that indicate a set of one or more events of interest for which the subscriber wishes to receive notification messages, wherein the set of events of interest includes a fully charged electric vehicle and that a charging session has been interrupted;
receiving data associated with the subscriber that indicates a first charging session at one of the plurality of charging stations has been authorized and established for an electric vehicle associated with the subscriber;
detecting, from data received from the one of the plurality of charging stations associated with the first charging session, one of the set of one or more events of interest for which the subscriber wishes to receive notification messages including that the electric vehicle associated with the subscriber is fully charged;
responsive to the detecting that the electric vehicle associated with the subscriber is fully charged, transmitting a first notification message to the subscriber that the electric vehicle associated with the subscriber is fully charged;
receiving data associated with the subscriber that indicates a second charging session at one of the plurality of charging stations has been authorized and established for the electric vehicle associated with the subscriber;
detecting, from data received from the one of the plurality of charging stations associated with the second charging session, that the second charging session of the electric vehicle has been interrupted unexpectedly; and
responsive to the detecting that the second charging session of the electric vehicle has been interrupted unexpectedly, transmitting a second notification message to the subscriber that the second charging session of the electric vehicle has been interrupted.
20. The non-transitory machine-readable storage medium ofclaim 19, wherein the first and second notification messages are to be transmitted to at least one of a set of one or more contact points associated with the subscriber through an email message, a text message, or other electronic communication.
21. The non-transitory machine-readable storage medium ofclaim 19, wherein at least another one of the set of events of interest includes a suspension or termination of the charging session.
22. The non-transitory machine-readable storage medium ofclaim 19, wherein at least another one of the set of events of interest includes a charge status event that includes one or more of: electric vehicle is not currently charging, electric vehicle has resumed charging, electric vehicle is currently transferring electricity to a grid, and electric vehicle is currently drawing electricity from the grid.
23. The non-transitory machine-readable storage medium ofclaim 19, wherein the operations further comprise:
wherein at least another one of the set of events of interest is related to an update event;
detecting the update event; and
responsive to the detecting the update event, transmitting a third notification message for the update event to the subscriber.
24. The non-transitory machine-readable storage medium ofclaim 19, wherein the operations further comprise:
wherein at least another one of the set of events of interest is related to a parking event;
detecting the parking event; and
responsive to the detecting the parking event, transmitting a third notification message for the parking event to the subscriber.
25. The non-transitory machine-readable storage medium ofclaim 19, wherein the operations further comprise:
receiving host notification message preferences for a host of the charging station network server that indicate one or more events of interest for which the host wishes to receive notification messages, wherein the host is an owner or administrator of the plurality of charging stations;
detecting one of the one or more events of interest for which the host wishes to receive notification messages; and
responsive to the detecting the one of the one or more events of interest for which the host wishes to receive notification messages, transmitting a third notification message for that event of interest to the host of the charging station network server.
26. The non-transitory machine-readable storage medium ofclaim 25, wherein the third notification message is transmitted to at least one of a set of one or more contact points associated with the host through an email message, a text message, or other electronic communication.
27. The non-transitory machine-readable storage medium ofclaim 26, wherein the detected event of interest for the host corresponds with an alarm event that is one of: one of the plurality of charging stations has failed to respond to a periodic heartbeat from the charging station network server, one of the plurality of charging stations has unexpectedly rebooted, one of the plurality of charging stations has detected a hardware or software problem, a ground fault circuit interrupter on one of the plurality of charging stations has tripped, a firmware update on one of the plurality of charging stations has completed, a firmware update on one of the plurality of charging stations has failed, and one of the plurality of charging stations has reverted to a previous firmware version.
US16/259,8712009-02-172019-01-28Transmitting notification messages for an electric vehicle charging networkActiveUS11407320B2 (en)

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